本土酵母NX11424对赤霞珠葡萄酒发酵中酵母菌多样性及香气成分的影响

【背景】NX11424酵母是一株具有良好发酵特性且能赋予赤霞珠葡萄酒浓郁果香的宁夏本土酿酒酵母。【目的】解析NX11424酵母发酵的赤霞珠葡萄酒中的水果香气特征。【方法】以赤霞珠为材料,设置3个发酵处理：自然发酵、灭菌接种NX11424的发酵和直接接种NX11424的发酵,利用26S rDNA D1/D2区测序分析法鉴定发酵过程中酵母菌的种类,并通过顶空固相微萃取和气相色谱-质谱联用技术定量测定不同发酵处理下赤霞珠葡萄酒的香气成分及含量。【结果】三个发酵处理下赤霞珠葡萄酒各理化指标无显著性差异。所分离到的酵母菌鉴定为2属3种：萄葡汁有孢汉逊酵母(Hanseniaspora uvarum)、酿酒酵母(Saccharomyces cerevisiae)和布拉迪酵母(Saccharomyces boulardii,S. boulardii);这2属3种均存在于自然发酵中,接种发酵中仅存在H. uvarum和S. cerevisiae两种酵母。三个发酵处理下的赤霞珠葡萄酒中香气物质种类无差异,均为69种;其中,酯类28种,醇类25种,有机酸5种,萜烯类2种和其他类化合物9种;但各发酵处理下香气物质的含量存在显著差异。聚类分析表明,69种香气成分被聚为3类。第1类香气物质包括香茅醇、丙醇等9种成分,其中7种香气物质的含量在灭菌接种发酵中较高;第2类香气物质包括己酸乙酯、棕榈酸乙酯等31种成分,其含量均在直接接种发酵中较高;第3类香气物质包括丁酸乙酯、乳酸乙酯等29种成分,其中27种香气物质的含量在自然发酵中较高。虽然直接接种发酵处理中酵母菌的多样性低于自然发酵处理,但是该处理的赤霞珠葡萄酒中酯类香气物质含量较多,水果香气浓郁,对赤霞珠葡萄酒香气的改善更明显。【结论】NX11424与发酵中的其他本土酵母间的相互作用可以改善葡萄酒的质量,为宁夏本土酵母NX11424在赤霞珠葡萄酒酿造过程中改善葡萄酒质量奠定了坚实的基础。     

Newly generated interspecific wine yeast hybrids introduce flavour and aroma diversity to wines

Increasingly, winemakers are looking for ways to introduce aroma and flavour diversity to their wines as a means of improving style and increasing product differentiation. While currently available commercial yeast strains produce consistently sound fermentations, there are indications that sensory complexity and improved palate structure are obtained when other species of yeast are active during fermentation. In this study, we explore a strategy to increase the impact of non-Saccharomyces cerevisiae inputs without the risks associated with spontaneous fermentations, through generating interspecific hybrids between a S. cerevisiae wine strain and a second species. For our experiments, we used rare mating to produce hybrids between S. cerevisiae and other closely related yeast of the Saccharomyces sensu stricto complex. These hybrid yeast strains display desirable properties of both parents and produce wines with concentrations of aromatic fermentation products that are different to what is found in wine made using the commercial wine yeast parent. Our results demonstrate, for the first time, that the introduction of genetic material from a non-S. cerevisiae parent into a wine yeast background can impact favourably on the wine flavour and aroma profile of a commercial S. cerevisiae wine yeast.     

Use of high-ethanol-resistant yeast isolates from Nigerian palm wine in lager beer brewing

High-ethanol-resistant yeasts, characterized as Saccharomyces sp., were isolated from Nigerian palm wine with added sucrose for high gravity brewing. The yeast isolates that survived the highest ethanol production were used to ferment brewery wort and produced 8.2 to 8.5% (v/v) ethanol; values almost double that of the control yeast from a local brewery.     

Use of non-conventional media inMorinda citrifolia cell cultures

Non-conventional media, containing organic solvents as supplement, were exploited to obtain the non-lethal product release of plant cell secondary metabolites, using suspension cultures ofMorinda citrifolia as model system. The results of our preliminary studies about solvent biocompatibility show that the discrimination between biocompatible and toxic solvents can be achieved by means of two parameters: log P and critical solvent concentration. The last one seems to be a better indicator of solvent toxicity for living cells.Abbreviations log P logarithm of P - P solvent partition coefficient in a standard system n-octanol/water     

Production of fermentation aroma compounds by Saccharomyces cerevisiae wine yeasts: effects of yeast assimilable nitrogen on two model strains

The contribution of yeast fermentation metabolites to the aromatic profile of wine is well documented; however, the biotechnological application of this knowledge, apart from strain selection, is still rather limited and often contradictory. Understanding and modeling the relationship between nutrient availability and the production of desirable aroma compounds by different strains must be one of the main objectives in the selection of industrial yeasts for the beverage and food industry. In order to overcome the variability in the composition of grape juices, we have used a chemically defined model medium for studying yeast physiological behavior and metabolite production in response to nitrogen supplementation so as to identify an appropriate yeast assimilable nitrogen level for strain differentiation. At low initial nitrogen concentrations, strain KU1 produced higher quantities of esters and fatty acids whereas M522 produced higher concentrations of isoacids, gamma-butyrolactone, higher alcohols and 3-methylthio-1-propanol. We propose that although strains KU1 and M522 have a similar nitrogen consumption profile, they represent useful models for the chemical characterization of wine strains in relation to wine quality. The differential production of aroma compounds by the two strains is discussed in relation to their capacity for nitrogen usage and their impact on winemaking. The results obtained here will help to develop targeted metabolic footprinting methods for the discrimination of industrial yeasts.     

Fermentation characteristics of hybrids between the cryophilic wine yeast Saccharomyces bayanus and the mesophilic wine yeast Saccharomyces cerevisiae

The cryophilic wine yeasts Saccharomyces bayanus YM-84 and YM-126 were used for hybridization with the mesophilic wine yeast Saccharomyces cerevisiae OC-2. All six hybrids were stable in tetrad analysis and pulsed field gel electrophoresis, even after twenty subcultures over two years. The fermentabilities of these hybrids at a low temperature of 7°C were superior to the mesophilic wine yeast and the same as the cryophilic wine yeasts. Conversely, their fermentabilities at the intermediate temperatures of 28 and 35°C were similar to the mesophilic wine yeast. For laboratory-scale wine-making using Koshu grape juice at 10°C, the fermentability of these hybrids was superior to the mesophilic wine yeast. They also produced higher amounts of malic acid and flavor compounds such as higher alcohols, β-phenylethyl alcohol, isoamyl acetate and β-phenylethyl acetate, and lower amounts of acetic acid than those of OC-2. These results suggest that the cryophilic wine yeast S. bayanus is useful for improving the low temperature fermentation ability of wine yeast strains.     

The effect of polysaccharide-degrading wine yeast transformants on the efficiency of wine processing and wine flavour

Commercial polysaccharase preparations are applied to winemaking to improve wine processing and quality. Expression of polysaccharase-encoding genes in Saccharomyces cerevisiae allows for the recombinant strains to degrade polysaccharides that traditional commercial yeast strains cannot. In this study, we constructed recombinant wine yeast strains that were able to degrade the problem-causing grape polysaccharides, glucan and xylan, by separately integrating the Trichoderma reesei XYN2 xylanase gene construct and the Butyrivibrio fibrisolvens END1 glucanase gene cassette into the genome of the commercial wine yeast strain S. cerevisiae VIN13. These genes were also combined in S. cerevisiae VIN13 under the control of different promoters. The strains that were constructed were compared under winemaking conditions with each other and with a recombinant wine yeast strain expressing the endo-beta-1,4-glucanase gene cassette (END1) from B. fibrisolvens and the endo-beta-1,4-xylanase gene cassette (XYN4) from Aspergillus niger, a recombinant strain expressing the pectate lyase gene cassette (PEL5) from Erwinia chrysanthemi and the polygalacturonase-encoding gene cassette (PEH1) from Erwinia carotovora. Wine was made with the recombinant strains using different grape cultivars. Fermentations with the recombinant VIN13 strains resulted in significant increases in free-flow wine when Ruby Cabernet must was fermented. After 6 months of bottle ageing significant differences in colour intensity and colour stability could be detected in Pinot Noir and Ruby Cabernet wines fermented with different recombinant strains. After this period the volatile composition of Muscat d'Alexandria, Ruby Cabernet and Pinot Noir wines fermented with different recombinant strains also showed significant differences. The Pinot Noir wines were also sensorial evaluated and the tasting panel preferred the wines fermented with the recombinant strains.     

Production of fruity aroma by newly isolated yeast

Summary One strain of yeast (Geotrichum sp) which was isolated from papaya fruit produced 22 volatile compounds and 8 of these were chemically identified. Ethyl isovalerate and ethyl hexanoate showed as fruity flavor, whereas ethyl propionate and ethyl butyrate showed weak fruitiness. Production of two fruity compounds was further studied by using various culture media.     

Influence of wine fermentation temperature on the synthesis of yeast-derived volatile aroma compounds

The yeast Saccharomyces cerevisiae synthesises a variety of volatile aroma compounds during wine fermentation. In this study, the influence of fermentation temperature on (1) the production of yeast-derived aroma compounds and (2) the expression of genes involved in aroma compounds’ metabolism (ADH1, PDC1, BAT1, BAT2, LEU2, ILV2, ATF1, ATF2, EHT1 and IAH1) was assessed, during the fermentation of a defined must at 15 and 28°C. Higher concentrations of compounds related to fresh and fruity aromas were found at 15°C, while higher concentrations of flowery related aroma compounds were found at 28°C. The formation rates of volatile aroma compounds varied according to growth stage. In addition, linear correlations between the increases in concentration of higher alcohol and their corresponding acetates were obtained. Genes presented different expression profiles at both temperatures, except ILV2, and those involved in common pathways were co-expressed (ADH1, PDC1 and BAT2; and ATF1, EHT1 and IAH1). These results demonstrate that the fermentation temperature plays an important role in the wine final aroma profile, and is therefore an important control parameter to fine-tune wine quality during winemaking.     

Metabolic engineering of the non-conventional yeast Pichia ciferrii for production of rare sphingoid bases

The study describes the identification of sphingolipid biosynthesis genes in the non-conventional yeast Pichia ciferrii, the development of tools for its genetic modification as well as their application for metabolic engineering of P. ciferrii with the goal to generate strains capable of producing the rare sphingoid bases sphinganine and sphingosine. Several canonical genes encoding ceramide synthase (encoded by PcLAG1 and PcLAF1), alkaline ceramidase (PcYXC1) and sphingolipid C-4-hydroxylase(PcSYR2), as well as structural genes for dihydroceramide Δ(4)-desaturase (PcDES1) and sphingolipid Δ(8)-desaturase (PcSLD1) were identified, indicating that P. ciferrii would be capable of synthesizing desaturated sphingoid bases, a property not ubiquitously found in yeasts. In order to convert the phytosphingosine-producing P. ciferrii wildtype into a strain capable of producing predominantly sphinganine, Syringomycin E-resistant mutants were isolated. A stable mutant almost exclusively producing high levels of acetylated sphinganine was obtained and used as the base strain for further metabolic engineering. A metabolic pathway required for the three-step conversion of sphinganine to sphingosine was implemented in the sphinganine producing P. ciferrii strain and subsequently enhanced by screening for the appropriate heterologous enzymes, improvement of gene expression and codon optimization. These combined efforts led to a strain capable of producing 240mgL(-1) triacetyl sphingosine in shake flask, with tri- and diacetyl sphinganine being the main by-products. Lab-scale fermentation of this strain resulted in production of up to 890mgkg(-1) triacetyl sphingosine. A third by-product was unequivocally identified as triacetyl sphingadienine. It could be shown that inactivation of the SLD1 gene in P. ciferrii efficiently suppresses triacetyl sphingadienine formation. Further improvement of the described P. ciferrii strains will enable a biotechnological route to produce sphinganine and sphingosine for cosmetic and pharmaceutical applications.     

Impact of different malolactic fermentation inoculation scenarios on Riesling wine aroma

During malolactic fermentation (MLF), lactic acid bacteria influence wine aroma and flavour by the production of volatile metabolites and the modification of aroma compounds derived from grapes and yeasts. The present study investigated the impact of different MLF inoculation strategies with two different Oenococcus oeni strains on cool climate Riesling wines and the volatile wine aroma profile. Four different timings were chosen for inoculation with bacteria to conduct MLF in a Riesling must/wine with a high acidity (pH 2.9–3.1). Treatments with simultaneous inoculation showed a reduced total fermentation time (alcoholic and malolactic) compared to the sequential inoculations. No negative impact of simultaneous alcoholic and malolactic fermentation on fermentation success and on the final wine volatile aroma composition was observed. Compared to sequential inoculation, wines with co-inoculation tended to have higher concentrations of ethyl and acetate esters, including acetic acid phenylethylester, acetic acid 3-methylbutylester, butyric acid ethylester, lactic acid ethylester and succinic acid diethylester. Results of this study provide some alternatives to diversify the number of wine styles by safely conducting MLF in low-pH, cool-climate white musts with potential high alcohol content.     

Instrumental and sensory approaches for the characterization of compounds responsible for wine aroma

More than 800 aromatic compounds have been identified in wine, some of them at the ng/l level. Wine, therefore, constitutes a very complex matrix, from which it is difficult to isolate a specific aroma character. Gas chromatography-olfactometry (GC-O) applied to wine extracts is used to characterize odor-active zones that are often treated in a hierarchical way by Aroma Extract Dilution Analysis (AEDA). The aromatic impact of the volatiles is evaluated, generally by determining perception thresholds. This methodology has provided convincing results concerning wine flavors, but it does have its limitations. For instance, data on beta-damascenone have demonstrated that these methods could reach their limits for this volatile, in particular, because of the non-quantitative representation of aroma extracts of wines, and because of the difficulty to accurately determine the perception threshold in wines for a compound already present. For beta-damascenone, we have shown that its very low detection threshold with GC-O, its wide range, and its dependence on the composition of the medium resulted in overestimating its direct impact on the aroma of wine. Another way to facilitate the characterization of aromatic compounds was, therefore, investigated. High-Performance Liquid Chromatography (HPLC) methods were developed for the analysis of wine extracts. From an aromatic extract, 25 fractions with various flavors were thus obtained, and reverse-phase methodology was used for the selection and characterization of red- and black-fruit aromas in red wines.     

Direct profiling of the yeast dynamics in wine fermentations

We present a method to directly characterize the yeast diversity present in wine fermentations by employing denaturing gradient gel electrophoresis (DGGE) of polymerase chain reaction (PCR)-amplified 26S ribosomal RNA (rRNA) genes. PCR-DGGE of a portion of the 26S rRNA gene was shown to distinguish most yeast genera associated with the production of wine. With this method the microbial dynamics in several model wine fermentations were profiled. PCR-DGGE provided a qualitative assessment of the yeast diversity in these fermentations accurately identifying populations as low as 1000 cells ml(-1). PCR-DGGE represents an attractive alternative to traditional plating schemes for analysis of the microbial successions inherent in the fermentation of wine.     

Clinical profile of sheep fed non-conventional feeds containing phenols and condensed tannins

A study was carried out to investigate the effects of feeding low quality non-conventional feeds (NCF) containing phenols and condensed tannins on the clinical profiles of sheep. Thirty-two Omani sheep were fed one of four diets with two base roughages, urea-treated palm frond (UTPF) and Rhodesgrass hay (RGH) and two concentrates, commercial concentrate (CC) and a by-products concentrate (BC) for 120 days. Haematological, serum biochemical and urine analyses were used to assess sheep health. Non-conventional feeds (urea-treated palm frond and by-products concentrate) contained higher levels of polyphenols and condensed tannins than conventional feeds (Rhodesgrass hay and commercial cubes). Feeds based on urea-treated palm frond had lower dry matter, crude protein, acid detergent fibre, neutral detergent fibre, gross energy (P < 0.001) and ash (P < 0.05) digestibility coefficients than those based on Rhodesgrass hay. Animals fed NCF had lower feed intake (P < 0.001) and lower body gain (P < 0.001) than those fed conventional ones. They also produced larger volumes of faeces (P < 0.01) which contained higher levels of nitrogen (P < 0.001) and had lower viscosity values of intestinal content (P < 0.001). Rumen liquor of NCF-fed animals had higher pH and lower ammonia–nitrogen levels (P < 0.01). Animals fed urea-treated palm frond plus by-products concentrate had lower lymphocyte (P < 0.01), monocyte (P < 0.05) and eosinophil (P < 0.05) counts by the end of the trial than those fed Rhodesgrass hay based diets. The urea-treated palm frond and by-products concentrate fed animals had lower blood urea nitrogen (BUN) levels (P < 0.05), higher (P < 0.01) alanine aminotransferase (ALT) and lower serum iron (P < 0.001) than those fed Rhodesgrass hay based diets. There was a trend of increasing blood, leukocytes and specific gravity in the urine of NCF-fed animals. This experiment implies that feeding low quality non-conventional feeds containing antinutritional factors for relatively long periods might produce subtle negative effects on the physiology and chemistry of the digestive system and blood parameters which might negatively affect sheep health and make them more susceptible to diseases.     

Breeding of a distiller's yeast by hybridization with a wine yeast

Summary Hybrids were constructed between auxotrophic mutants of a heterothallic distiller's strain and a homothallic wine yeast. The hybridization resulted in a significant increase in both ethanol production and tolerance against exogenous ethanol. The hybrids were heterogeneous in ploidy, probably due to segregation of aneuploids during culturing. Sporulation of the hybrids broke down the high productivity, producing spore clones that were mostly of various intermediate levels of performance. However, a meiotic product superior to both crossing partners was also found. The results demonstrate that fermentation capacity can be improved by crossing with a low performance strain. Offprint requests to: M. Sipiczki